Kumar, Himansu, Srikanth, Krishnamoorthy, Park, Woncheol, Lee, Seung-Hoon, Choi, Bong-Hwan, Kim, Hana, Kim, Yong-Min, Cho, Eun-Seok, Kim, Jin Hyoung, Lee, Jang Hee, Jung, Ji Yeon, Go, Gwang-woong, Lee, Kyung-Tai, Kim, Jun-Mo, Lee, Jungjae, Lim, Dajeong, and Park, Jong-Eun
Long non coding RNAs (lncRNA) have been previously found to be involved in important cellular activities like epigenetics, implantation, cell growth etc. in pigs. However, comprehensive analysis of lncRNA in back fat tissues at different developmental stages in pigs is still lacking. In this study we conducted transcriptome analysis in the back fat tissue of a F1 crossbred Korean Native Pig (KNP) × Yorkshire Pig to identify lncRNA. We investigated their role in 16 pigs at two different growth stages; stage 1 (10 weeks, n = 8) and stage 2 (26 weeks, n = 8). After quality assessment of sequencing reads, we got a total of 1,641,165 assembled transcripts out of eight paired end read from each stage. Among them, 6808 lncRNA transcripts were identified by filtering on the basis of multiple parameters like read length ≥ 200 nucleotides, exon numbers ≥2, FPKM ≥0.5, coding potential score < 0 etc. PFAM and RFAM were used to filter out all possible protein coding genes and housekeeping RNAs respectively. A total of 103 lncRNAs and 1057 mRNAs were found to be differentially expressed (DE) between the two stages (|log2FC| > 2, q < 0.05). We also identified 306 genes located around 100 kb upstream and 234 genes downstream around these DE lncRNA transcripts. The expression of top eleven DE lncRNAs (COL4A6, LY7S, MYH2, OXCT1, SMPDL3A, TMEM182, TTC36, RFOOOO4, RFOOO15, RFOOO45, CADM2) had been validating by qRT-PCR. Pathway and GO terms analysis showed that, positive regulation of biosynthetic process, Wnt signaling pathway, cellular protein modification process, and positive regulation of nitrogen compound were differentially enriched. Our results suggested that, KEGG pathways such as protein digestion and absorption, Arrhythmogenic right ventricular cardiomyopathy (ARVC) to be significantly enriched in both DE lncRNAs as well as DE mRNAs and involved in back fat tissues development. It also suggests that, identified lncRNAs are involved in regulation of important adipose tissues development pathways. • Analysis of lncRNAs in back fat tissues at different developmental stages in the pigs • A total of 103 lncRNAs and 1057 mRNAs were found to be differentially expressed. • KEGG pathway and GO analysis for functional annotation of lncRNAs • Top DE transcripts were validated by qRTPCR. • Relation between back fat metabolism and lncRNAs were established. [ABSTRACT FROM AUTHOR]